Mathematics for the interested outsider

The Codifferential

From our calculation of the square of the Hodge star we can tell that the star operation is invertible. Indeed, since — applying the star twice to a -form in an -manifold with metric is the same as multiplying it by and the determinant of the matrix of — we conclude that .

With this inverse in hand, we will define the “codifferential”

The first star sends a -form to an -form; the exterior derivative sends it to an -form; and the inverse star sends it to a -form. Thus the codifferential goes in the opposite direction from the differential — the exterior derivative.

Unfortunately, it’s not quite as algebraically nice. In particular, it’s not a derivation of the algebra. Indeed, we can consider and in and calculate

while

but there is no version of the Leibniz rule that can account for the second and third terms in this latter expansion. Oh well.

On the other hand, the codifferential is (sort of) the adjoint to the differential. Adjointness would mean that if is a -form and is a -form, then

where these inner products are those induced on differential forms from the metric. This doesn’t quite hold, but we can show that it does hold “up to homology”. We can calculate their difference times the canonical volume form

which is an exact -form. It’s not quite as nice as equality, but if we pass to De Rham cohomology it’s just as good.

About this weblog

This is mainly an expository blath, with occasional high-level excursions, humorous observations, rants, and musings. The main-line exposition should be accessible to the “Generally Interested Lay Audience”, as long as you trace the links back towards the basics. Check the sidebar for specific topics (under “Categories”).

I’m in the process of tweaking some aspects of the site to make it easier to refer back to older topics, so try to make the best of it for now.